Engineering Commons^™

Hydroshare: Advancing Collaboration Through Hydrologic Data And Model Sharing, David G. Tarboton

Civil and Environmental Engineering Faculty Publications

No abstract provided.

Ozone Photochemistry In A Natural Gas Basin During Winter: Simulations Of Results From The 2012 Utah Basin Winter Ozone Study, P. M. Edwards, K. J. Akin, J. Degouw, W P. Dubé, J. Gillman, D. Helmig, J S. Holloway, B. Lener, R. Mclaren, D. D. Parrish, J. Peischl, J. M. Roberts, T. B. Ryerson, Randy S. Martin, C. Warneke, E. J. Williams, C. J. Young, S. S. Brown

Civil and Environmental Engineering Faculty Publications

The Uintah Basin in northeastern Utah, a region of intense oil and gas extraction, experienced ozone (O3) concentrations above levels harmful to human health for multiple days during the winters of 2009–2010 and 2010–2011. These wintertime O3 pollution episodes occur during cold, stable periods when the ground is snow-covered, and have been linked to emissions from the oil and gas extraction process. The Uintah Basin Winter Ozone Study (UBWOS) was a field intensive in early 2012, whose goal was to address current uncertainties in the chemical and physical processes that drive wintertime O3 production in regions of oil and gas …

Response Of Stream Ecosystems To Climate Change (Iii): Characterizing And Predicting Ecologically Relevant Flow Regimes, David G. Tarboton, Sulochan Dhungel, Yi He, J.J. V. Laan, Ryan A. Hill, Jiming Jin

Civil and Environmental Engineering Faculty Publications

No abstract provided.

Volatilization Of Trichloroethylene From Trees And Soil: Measurement And Scaling Approaches, William J. Doucette, H. Klein, J. Chard, Ryan Dupont, W. Plaehn, Bruce Bugbee

Civil and Environmental Engineering Faculty Publications

Trichloroethylene (TCE) volatilization from leaves, trunk, and soil was measured to assess the significance of these pathways from phytoremediation sites at Travis and Fairchild Air Force Bases. Measurements were scaled temporally and spatially to estimate the annual volatilization of TCE at the Travis (0.82 ± 0.51 kg/yr) and Fairchild sites (0.014 ± 0.008 kg/yr). Volatilization was primarily through the leaf (0.34 ± 0.16 kg/yr at Travis and 0.01 ± 0.06 kg/yr at Fairchild) and soil (0.48 ± 0.36 kg/yr at Travis, 0.003 ± 0.002 kg/yr at Fairchild) pathways. The larger volatilization estimate at Travis was expected because of the site's …

Community Approaches To Hydrologic Data And Model Sharing Using Cloud Resources, David G. Tarboton, R. Idaszak, Jeffery S. Horsburgh, Daniel Ames, J. Goodall, L. Band, V. Merwade, A. Couch, J. Arrigo, R. P. Hooper, D. W. Valentine

Civil and Environmental Engineering Faculty Publications

Cloud Computing

The CUAHSI HIS

• A Services-Oriented Architecture Based System for Sharing Hydrologic Data

HydroShare

• A Web-Based Collaborative Environment for the Sharing of Hydrologic Data and Models

A Decision Tree Model To Estimate The Value Of Information Provided By A Groundwater Quality Monitoring Network, Abdelhaleem I. Khader, David E. Rosenberg, Mac Mckee

Civil and Environmental Engineering Faculty Publications

Groundwater contaminated with nitrate poses a serious health risk to infants when this contaminated water is used for culinary purposes. To avoid this health risk, people need to know whether their culinary water is contaminated or not. Therefore, there is a need to design an effective groundwater monitoring network, acquire information on groundwater conditions, and use acquired information to inform management options. These actions require time, money, and effort. This paper presents a method to estimate the value of information (VOI) provided by a groundwater quality monitoring network located in an aquifer whose water poses a spatially heterogeneous and uncertain …

Testing Above- And Below-Canopy Representations Of Turbulent Fluxes In An Energy Balance Snowmelt Model, Vinod Mahat, David G. Tarboton, Noah P. Molotch

Civil and Environmental Engineering Faculty Publications

Turbulent fluxes of sensible and latent heat are important processes in the surface energy balance that drives snowmelt. Modeling these fluxes in a forested environment is complicated because of the canopy effects on the wind field. This paper presents and tests a turbulent flux model developed to represent these processes in an energy balance snowmelt model. The goal is to model these processes using the readily available inputs of canopy height and leaf area index in a way that minimizes the number of parameters, state variables, and assumptions about hard to quantify processes. Selected periods from 9 years of eddy-covariance …

Ozone Photochemistry In An Oil And Natural Gas Extraction Region During Winter: Simulations Of A Snow-Free Season In The Uintah Basin, Utah, P. M. Edwards, C. J. Young, K. Aikin, J. Degouw, W. P. Dubé, F. Geiger, J. Gillman, D. Helmig, J. S. Holloway, J. Kercher, B. Lerner, Randy S. Martin, R. Mclaren, D. D. Parrish, J. Peischl, J. M. Roberts, T. B. Ryerson, J. Thornton, C. Warneke, E. J. Williams, S. S. Brown

Civil and Environmental Engineering Faculty Publications

The Uintah Basin in northeastern Utah, a region of intense oil and gas extraction, experienced ozone (O3) concentrations above levels harmful to human health for multiple days during the winters of 2009–2010 and 2010–2011. These wintertime O3 pollution episodes occur during cold, stable periods when the ground is snow-covered, and have been linked to emissions from the oil and gas extraction process. The Uintah Basin Winter Ozone Study (UBWOS) was a field intensive in early 2012, whose goal was to address current uncertainties in the chemical and physical processes that drive wintertime O3 production in regions of oil and gas …